A beam with a length of 8 meters is known to carry both distributed and point loads as well as onepoint moment applied at the end of the beam, i.e., x = 8 m. These loads produce the shear forcediagram shown in Figure 2.1:80{4,80}606040402020Shear Force [kN]- {0,0}{0,-10}{2,0}-20-40{2,-50}{4,-40}4x [m]{8,40}{6,40}{8,0}00Figure 2.1. Shear force diagram for loaded beam.Coordinates, as in {x position, shear force} are provided for each location where a significantchange in the diagram occurs. Using the information in the diagram, find the correspondingbending moment diagram and use it, along with the shear force diagram given, to deduce the loadsbeing applied to beam and show them in a free body diagram of the beam. Show and justify yourcalculations to obtain the bending moment diagram and label each significant location with itscorresponding value of bending moment. Furthermore, provide a brief narrative of how you usedboth diagrams to deduce the loads applied to the beam.

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Answered: A beam with a length of 8 meters is…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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I need help with the "Now, if the end of the bar marked by the red circle in the figure below is the only spot where you can apply loadson the bar. Draw loads accompanied with magnitudes only at the indicated end in the figure below, so that the ground experiences the same loading from the bar. " part
Question 1: In the system shown in the figure, built-in support at point A, fixed support at point Bare available. Normal Force (N) that will occur in the system under a given external loading,Draw the Shear Force (T) and Bending Moment (M) diagrams.
Beam cross section is shown in Figure Q3 and given the second moment of area is I= 20.85 x 106 mm*. If a resultant shear force, Vacting at the beam cross section is 40 kN, (a) Determine the shear stress at point M, N, O and P based on the given shear force. (b) Sketch the shear stress distribution over the cross section and label the shear stress values V= 40 kN M 80 mm 40 mm y =100 mm 80 mm 80 mm 30 mm 80 mm Figure Q3
5. Determine the value of the distributed load w and the concentrated loads x, y and z in the load diagram. [x=5.75kN, y=15kN, w= 5kN/m, z=34.25kN] 80 kN-m 5.75 X V (kN) 50N A 5m V (N) M (Nm) B 5 -9.25 6. Determine the value of A, B in the shear force diagram and C in the bending moment diagram. [A =50N; B = -50N; C = 125Nm] 10N/m 10m -5m- C W Z -.x(m) -34.25 50N -x (m) B -x (m)
Consider the figure shown below where F = 200 N and P = 100 N. What is the net moment at point C?
Draw the Shear force and Bending moment diagrams
do this immediately please
50 kN *** w 1* 4 m 3 kN/m 5 75 kN 37° Draw the shear force diagram and the bending moment diagram for the anchor beam below.
The bending moment diagram and cross-section for a beam are shown below. Use the elastic flexural formula ox = -Mzy/l, to determine the required strength of the beam to resist the compressive stresses. Circle the correct answer for the compressive strength in ksi: 2.3, 2.5, 27.5, 30, 37.7 Show your work below. Bending Moment Diagram Beam Cross-Section 4" +50 2' (K-Fe) 2" 2" - 40 2"
Of a column of infinite length to points A, B, C and D parallel FA, FB, FC and FD (kN) respectively Using the forces in the directions given in the figure, equivalent resultant force (FEŞ) size and application x and y (m) coordinates of the point find. FA=20 FB=55 FC=35 FD=77 xA=13 yA=8 xB=3 yB=5 xC=10 yC=0 xD=-9 yD=-15
Draw the shear and moment diagrams for the figure shown Show your solutions 80KN 40KN ▼ 30 KN/m v 3m 3m 3m
3. The beam in the figure above has a length L 2m and is loaded with a distributed load (force per length) w(x) = 5(1-x²/L2) N/m. Find (a) the force applied on the beam and (b) the moment of the force about the left support. [ w(x) x

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